Bohr's Model of a Hydrogen Atom
Trending Questions
Calculate the weight of CO having the same number of oxygen atoms as are present in 22g of CO2
What is the number of moles of Oxygen atom in 126 amu of HNO3
Two oxides of metal contain 50% and 40% of metal M respectively, if the formula of the first oxide is MO2, the formula of the second oxide is!?
What transition in the hydrogen spectrum would have the same wavelength as the Balmer transition n = 4 to n = 2 of He+ spectrum?
- n =4 to n =2
- n =3 to n =1
- n =6 to n =4
- n =2 to n =1
- 49r2
- 4r2
- 94r2
- 9r2
- 4.35×1016 Hz, 691 nm
- 6.91×1014 Hz, 434 nm
- 4.35×1015 Hz, 450 nm
- 6.91×1013 Hz, 400 nm
Calculate the mass of Na2CO3 which will have the same number of molecules as contained in 12.3 gram of MgSO4MgSO4.7H2O
- Li2+ (n=2)
- He+ (n=2)
- Li2+ (n=3)
- Be3+ (n=2)
- 1:2
- 2:1
- 1:4
- 4:1
The energy associated with the first orbit in the hydrogen atom is –2.18 × 10–18 J atom–1 . What is the energy associated with the fifth orbit?
Calculate the radius of Bohr’s fifth orbit for hydrogen atom.
- −41 kJ mol−1
- −1312 kJ mol−1
- −164 kJ mol−1
- −82 kJ mol−1
- 138
- 139
- 137
- 140
In an organic compound of molar mass 108 gram/mole C, H, and N atoms are present in 9:1:3.5 by weight find out the molecular formula of the compound
- 13.6 eV
- 3.4 eV
- 10.2 eV
- 12.75 eV
- 3:2
- 2:3
- 4:3
- 3:4
From a sample of 196g of H2SO4 if all the oxygen and hydrogen atoms are removed and converted to H2O. Find the max. mole of H2O formed.
A compound contains c=34.6percent , H=3.85 percent, andO=61.55percent .Calculate the empirical formula
- n=3 to n=1
- n=2 to n=1
- n=3 to n=2
- n=4 to n=3
- 4.09×10−19 J
- 2.42×10−19 J
- 5.42×10−19 J
- 3.42×10−19 J
- n=3, Li2+
- n=2, He+
- n=2, Be3+
- n=2, Li3+
- 13.18×1015
- 6.59×1013
- 2.07×1013
- 6.59×1015
Two element X atomic weight 75 and Y atomic weight 16 combine to give compound having 75.8% of X. The formula of the compound is
E=−2.178×10−18J(Z2n2) wavelength of light required to excite an electron in an hydrogen atom from level n = 1 to n = 2 will be
(h=6.62×10−34 J s and c=3.0×108m s−1)
- 6.500×10−7m
- 1.214×10−7m
- 8.500×10−7m
- 2.816×10−7m
En=−21.76×10−19n2(Z2) J
Calculate the longest wavelength of light that will be needed to completely remove an electron from the third Bohr orbit of He+ ion.
- 2055 ∘A
- 205.5 ∘A
- 2.055 ∘A
- 20.55 ∘A
- −41 kJ mol−1
- −1312 kJ mol−1
- −164 kJ mol−1
- −82 kJ mol−1
A compound has the molecular formula X4O6 . If 11 g of X4O6 has 6.2 g of X, then what is the atomic mass of X?
- 13
- 49
- 12
- 275